Question

Which hormone is responsible for regulating the basal metabolic rate (BMR) in the human body?

• A. \( \text{Insulin} \)
• B. \( \text{Thyroxine (T4)} \)
• C. \( \text{Adrenaline} \)
• D. \( \text{Cortisol} \)

Hint:

Thyroxine is a key hormone in controlling metabolism. When thyroxine levels are low (hypothyroidism), BMR decreases, leading to symptoms like weight gain and fatigue. On the other hand, excessive thyroxine (hyperthyroidism) results in an increased BMR, causing symptoms like weight loss, rapid heart rate, and nervousness.

Answer 1

The Correct Option is B

The basal metabolic rate (BMR) is the measure of the energy expenditure by the body at rest, which is essential for maintaining basic life processes such as breathing, heartbeat, and temperature regulation. BMR plays a key role in determining how efficiently the body uses energy. Among the hormones that influence metabolism, Thyroxine (T4), produced by the thyroid gland, is the primary hormone responsible for regulating BMR. Step 1: Role of Thyroxine in Metabolism.
Thyroxine, also known as T4, is a hormone secreted by the thyroid gland that regulates metabolism. It controls the rate at which cells convert nutrients into energy, thereby impacting energy expenditure. Thyroxine stimulates: Increased oxygen consumption in tissues, Enhanced production of ATP (adenosine triphosphate) by stimulating mitochondria, which is the cell's powerhouse for energy production, Increased breakdown of fats and carbohydrates to release energy. These actions of thyroxine directly influence BMR by determining how fast the body consumes energy at rest. Step 2: How Thyroxine Regulates BMR.
Thyroxine directly affects the metabolic rate by: Elevating the rate of cellular respiration, which is the process by which cells break down nutrients to release energy, Stimulating mitochondrial activity to increase the production of energy-rich molecules like ATP, Modifying the expression of genes involved in energy utilization. This makes thyroxine essential in determining the speed of metabolic processes and, by extension, BMR. Step 3: Comparison with Other Hormones.
While other hormones are important for regulating various physiological functions, they do not directly control BMR. Let's briefly compare them: Insulin: Although insulin is critical for regulating blood sugar levels by promoting glucose uptake, it does not directly regulate BMR. Its primary role is in energy storage and glucose metabolism. Adrenaline: Adrenaline is a stress hormone that prepares the body for "fight or flight" responses by increasing heart rate, blood pressure, and glucose availability. However, it does not play a significant role in regulating BMR under normal resting conditions. Cortisol: Cortisol helps manage metabolism during long-term stress but does not directly influence BMR. It helps regulate energy usage and protein metabolism, especially in response to stress. Thus, the hormone that plays a crucial role in regulating BMR is Thyroxine (T4).